Title:Absorption in Gamma Ray Burst afterglows

Abstract: We studied the X-ray and optical absorption properties of 13 Gamma Ray Burst (GRB) afterglows observed by BeppoSAX. We found that X-ray absorption in addition to the Galactic one along the line of sight is highly statistically significant in the two cases with the best statistics (probability >99.9%). In three other cases the presence of X-ray absorption is marginally significant (probability 97%). Measured rest frame equivalent hydrogen column densities NH range from 0.1 to 10.0 x 10^22 cm-2 (at 90% confidence level) assuming a solar metal abundance. X-ray absorption may be common, although the quality of present data does not allow us to reach a firm conclusion. The rest frame NH derived from XMM and Chandra data as quoted in the literature are in good agreement with the BeppoSAX estimates. For the same GRB afterglow sample we evaluated the rest frame visual extinction AVr. We fitted the optical-NIR afterglow photometry with a power law model corrected by four different extinction curves. By comparing X-ray absorptions and optical extinction, we found that if a Galactic-like dust grain size distribution is assumed, a dust to gas ratio lower than the one observed in the Galaxy is required by the data. A dust to gas ratio 1/10 than the Galactic one, has been tested using the Small Magellanic Cloud extinction curve, which produces inconsistent results. Alternative scenarios to explain simultaneously the optical and X-ray data involve dust with grain size distributions biased toward large grains. Possible mechanisms that can bring to such a grain size distribution are discussed.